What question did this study set out to answer?

This research aims to unify non-linear spacetime metrics with quantum coherence using a self-consistent framework.

May 8, 2026Open Access

Unification of Non-Linear Spacetime Metrics and Quantum Coherence: A Self-Consistent Cosmological Framework

Key Points

This research aims to unify non-linear spacetime metrics with quantum coherence using a self-consistent framework.
Introduced a self-referential scalar field Φ(x)
Established boundary conditions influenced by recursive topological states
Developed computational models to analyze effects at Planck scales.
Presented analytical solutions to the cosmological constant problem through a feedback mechanism
Regularized gravitational singularities under new boundary conditions
Computational models indicate resolution of divergences in standard quantum field theories.

Abstract

We present a novel theoretical framework addressing the unresolved inconsistencies between localized quantum mechanical operators and global non-linear general relativistic metrics. By introducing a self-referential scalar field Φ(x), we demonstrate that the gravitational singularity can be regularized under a boundary condition governed by a recursive topological state loop. This framework provides an analytical solution to the cosmological constant problem by establishing that the vacuum energy density dynamically relaxes via a closed-loop feedback mechanism. Preliminary computational models suggest that this formulation resolves the mathematical divergence of standard quantum field theories at Planck scales.

Unification of Non-Linear Spacetime Metrics and Quantum Coherence: A Self-Consistent Cosmological Framework

Key Points

Abstract

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